Entangling power of permutation invariant quantum states
classification
🪐 quant-ph
cond-mat.stat-mech
keywords
statesentanglemententropyfunctioninvariantmodelspermutationquantum
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We investigate the von Neumann entanglement entropy as function of the size of a subsystem for permutation invariant ground states in models with finite number of states per site, e.g., in quantum spin models. We demonstrate that the entanglement entropy of $n$ sites in a system of length $L$ generically grows as $\sigma\log_{2}[2\pi en(L-n)/L]+C$, where $\sigma$ is the on-site spin and $C$ is a function depending only on magnetization.
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